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Main Authors: Tiwari, Upasana, Chakraborty, Rupayan, Kopparapu, Sunil Kumar
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2503.18964
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author Tiwari, Upasana
Chakraborty, Rupayan
Kopparapu, Sunil Kumar
author_facet Tiwari, Upasana
Chakraborty, Rupayan
Kopparapu, Sunil Kumar
contents Computer interfaces are advancing towards using multi-modalities to enable better human-computer interactions. The use of automatic emotion recognition (AER) can make the interactions natural and meaningful thereby enhancing the user experience. Though speech is the most direct and intuitive modality for AER, it is not reliable because it can be intentionally faked by humans. On the other hand, physiological modalities like EEG, are more reliable and impossible to fake. However, use of EEG is infeasible for realistic scenarios usage because of the need for specialized recording setup. In this paper, one of our primary aims is to ride on the reliability of the EEG modality to facilitate robust AER on the speech modality. Our approach uses both the modalities during training to reliably identify emotion at the time of inference, even in the absence of the more reliable EEG modality. We propose, a two-step joint multi-modal learning approach (JMML) that exploits both the intra- and inter- modal characteristics to construct emotion embeddings that enrich the performance of AER. In the first step, using JEC-SSL, intra-modal learning is done independently on the individual modalities. This is followed by an inter-modal learning using the proposed extended variant of deep canonically correlated cross-modal autoencoder (E-DCC-CAE). The approach learns the joint properties of both the modalities by mapping them into a common representation space, such that the modalities are maximally correlated. These emotion embeddings, hold properties of both the modalities there by enhancing the performance of ML classifier used for AER. Experimental results show the efficacy of the proposed approach. To best of our knowledge, this is the first attempt to combine speech and EEG with joint multi-modal learning approach for reliable AER.
format Preprint
id arxiv_https___arxiv_org_abs_2503_18964
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Unifying EEG and Speech for Emotion Recognition: A Two-Step Joint Learning Framework for Handling Missing EEG Data During Inference
Tiwari, Upasana
Chakraborty, Rupayan
Kopparapu, Sunil Kumar
Sound
Artificial Intelligence
Computer interfaces are advancing towards using multi-modalities to enable better human-computer interactions. The use of automatic emotion recognition (AER) can make the interactions natural and meaningful thereby enhancing the user experience. Though speech is the most direct and intuitive modality for AER, it is not reliable because it can be intentionally faked by humans. On the other hand, physiological modalities like EEG, are more reliable and impossible to fake. However, use of EEG is infeasible for realistic scenarios usage because of the need for specialized recording setup. In this paper, one of our primary aims is to ride on the reliability of the EEG modality to facilitate robust AER on the speech modality. Our approach uses both the modalities during training to reliably identify emotion at the time of inference, even in the absence of the more reliable EEG modality. We propose, a two-step joint multi-modal learning approach (JMML) that exploits both the intra- and inter- modal characteristics to construct emotion embeddings that enrich the performance of AER. In the first step, using JEC-SSL, intra-modal learning is done independently on the individual modalities. This is followed by an inter-modal learning using the proposed extended variant of deep canonically correlated cross-modal autoencoder (E-DCC-CAE). The approach learns the joint properties of both the modalities by mapping them into a common representation space, such that the modalities are maximally correlated. These emotion embeddings, hold properties of both the modalities there by enhancing the performance of ML classifier used for AER. Experimental results show the efficacy of the proposed approach. To best of our knowledge, this is the first attempt to combine speech and EEG with joint multi-modal learning approach for reliable AER.
title Unifying EEG and Speech for Emotion Recognition: A Two-Step Joint Learning Framework for Handling Missing EEG Data During Inference
topic Sound
Artificial Intelligence
url https://arxiv.org/abs/2503.18964